Linux Hacks

620 Articles

A Brief History Of Unix Commands On Windows: CoreUtils (Again)

June 16, 2026 by 15 Comments

If you use Windows today and type ls, cat, grep, or awk in a terminal, there is a good chance something useful will happen. That was not always true. For most of the history of personal computing, Unix/Linux and Windows lived on opposite sides of a cultural border. Unix people had pipes, small composable tools, shell scripts, make, sed, awk, grep, tar, and the idea that everything was a file. Windows people had drive letters, backslashes, COMMAND.COM or cmd.exe, and an API that did not care much about what POSIX thought.

Yet there has always been a demand for Unix tools on Windows. Some of it came from programmers who wanted the same build scripts everywhere. Some came from administrators who missed grep and awk. Some came from companies trying to port big Unix applications to NT without rewriting them all. The result is a long, strange history of Unix-on-Windows layers, toolkits, compromises, and almost-but-not-quite compatibility.

Easy?

The simplest version of the problem sounds trivial. How hard can cat be? Open a file, copy bytes to standard output, done. Writing ls is a little more work, but Windows has directory APIs. Common commands like cp, mv, rm, mkdir are not very mysterious. Even pipes are not foreign to Windows. A lot of the everyday Unix command set can be ported as ordinary Win32 console programs with some path handling and enough patience.

But not all of Unix or Linux translates cleanly to Windows. The big issue is fork(). On Unix, a process can clone itself. The child gets a copy of the parent’s address space, open file descriptors, environment, signal state, and so on. Modern kernels make this efficient with copy-on-write memory, but the programming model is old and deeply baked into Unix. Shells use it constantly. Servers use it. Build systems use it. Scripting languages assume it exists, or at least that the surrounding environment behaves as though it does.

Windows process creation is different. Windows has CreateProcess(), which starts a new program. That is a perfectly reasonable model, but it is not fork() (more like fork()+exec()). If you are just launching notepad.exe, no problem. If you are trying to implement a POSIX shell that forks, redirects file descriptors, adjusts the environment, and then starts another program, the mismatch is extreme and you’ll have to do some strange things to fake things out.

One of the early commercial answers was the MKS Toolkit, originally from Mortice Kern Systems. MKS gave Windows users a pile of familiar commands, shells, and development tools. It was not just ls and friends; it included things like ksh, vi, grep, find, awk, make, and many of the utilities needed to move scripts and build procedures between Unix and Windows. The current PTC MKS documentation still describes it in exactly that spirit: Unix shells and hundreds of commands for interoperability with Windows.

MKS was attractive because it treated Windows as Windows. You were not necessarily pretending your machine was a Unix workstation. You were getting a Unix-flavored toolbox that could operate in a Windows environment. For many people, that was enough. You could write scripts, process text, drive builds, and avoid learning three different syntaxes for the same job.

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yserver screenshot demonstrating compiz comptibility

Why Not Yserver? It’s Xserver, But Rust-y.

June 14, 2026 by 21 Comments

If you’re not into Wayland as a display manager, it seems like your options are slowly dwindling. Xorg isn’t exactly a hotbed of activity, and the one fork everyone knows about is best known as a political lightning rod. Luckily, Rust developers can apparently never see a tool without pulling it into their heavily oxidized bucket of crabs, so we now have another option: the creatively named yserver, released under the MIT license by [joske].

The name, yserver, for the record, is just a placeholder name, but we rather like the simple logic of “Y comes after X” — sure, you could call it X12, but that could imply continuity, and this is a clean break. It’s also not a full reimplementation of the huge, sprawling mess that Xorg has become over the decades. It can’t launch multiple screens and thus lacks full multi-monitor support. So, for now, it may be too bare-bones for some people’s use cases.

As it uses Vulkan, it is limited to relatively modern hardware, but has been tested on Intel, AMD, Nvidia, and Apple chips. The target kernel is good old Linux, but the docs do cover compiling for FreeBSD; just be aware that that’s very much a secondary target. FreeBSD users are probably used to that, though.

On Linux, a standalone DRM/KMS yserver can successfully run not just window managers but full desktops — specifically MATE, Cinnamon, and XFCE, as they’re not on the Wayland bandwagon. It even supports Compiz, in case you missed the cube and wiggly window animations. You can also use yserver via Xwayland or even Xorg. Speaking of Xorg, [joske] has run the X.Org X Test Suite (xts5) against this proposed successor, and it currently scores 66.2%, which seems pretty good considering the project explicitly does not plan to copy all of Xorg’s functionality.

Aside from multiple screens, one thing that would have been neat to see is support for the Asterinas rust-based Linux-compatible kernel — though if that project achieves full Linux compatibility, that may be a non-issue. Even if you aren’t an oxidization enthusiast, you might find reasons to be happy to see more competition in the display-manager market — after all, Wayland Will Never Be Ready For Every X11 User. If Xorg really is destined to the slow death critics predict, perhaps yserver could cover the holdouts.

Custom FM Radio Station Powered By Shell Scripts

June 9, 2026 by 21 Comments

[Trwmato] wanted to spend more time listening to a normal radio to cut back on phone use. But the programming wasn’t quite right so, of course, the solution was to spin up a custom radio station!

The station in question uses a Pi Zero to poll podcasts and news from RSS feeds and automatically mixes them with local content and sends it out via Bluetooth. An FM transmitter allows it to still work on the FM radio, too. Grabbing podcasts isn’t very difficult, thanks to podget. The real logic is in how long to retain things and creating a playlist that both prioritizes fresh content while not repeating things too often. Did we forget to mention the whole thing is a collection of shell scripts?

We could see this as the start of a cool project to have a “radio station” for a school, organization, or company. It is easy to understand and modify.

We often argue that the much-maligned bash script is sometimes the right tool for the job. You can even do things like critical sections in them.

Linux Fu: Fake Webcams, GUI Edition

June 3, 2026 by 6 Comments

Previously, I looked at using the Linux video loopback system from the command line. The basic trick was simple enough: capture video from a real camera, process it with something like ffmpeg, and write the result to a fake camera device via the v4l2loopback device. Then a browser, or any camera-enabled software, sees the fake camera as if it were real. This allows you to manipulate video before sending it to the rest of the world.

That works, and for those of us who like command lines, it’s easy enough to execute. But not everyone loves the command line. In the comments, there was another obvious answer: use OBS Studio.

While OBS is excellent, it is also a bit like using a laser to chop a carrot. If you already use OBS, fine. If you only want to crop a webcam, add an effect, mirror an image, or feed a virtual camera, it can feel like a lot. If you must have a GUI, you can try Webcamoid, which sits somewhere between a simple webcam viewer and a full video production system.

Webcamoid gives you a GUI for selecting a camera, applying effects, and sending the result to a virtual camera. Conceptually, it is much closer to the command-line loopback setup from the previous post than to OBS. You are still building a pipeline from input camera to output camera, but now you can do much of it with buttons and menus instead of shell commands.

That’s in theory, of course. Implementing Webcamoid turned out to be quite the exercise. Granted, this probably varies depending on where you install software. If your distro has a clean working copy of Webcamoid and its dependencies, good for you. For everyone else, keep reading.

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Linux Fu: Taming Strace

June 2, 2026 by 9 Comments

While many operating systems seem to try to prevent you from peeking under the hood, Unix and Linux positively encourage it. One great tool that we’ve looked at before is strace. Using this tool, you can see details about every system call a program makes. As you might imagine, for any significant program, the output from strace can be huge.

While I’m not always a fan of GUIs, this is one of those cases where making the data easier to browse is a great idea. Enter strace-tui, a text-based GUI for strace from [Rodrigodd]. The program can parse output from strace or manage the strace execution itself, and either way, display the data in a useful way.

I started out looking at [janestreet’s] strace_ui, but the OCaml setup was throwing errors for me, so I just gave up. The strace-tui installs like many Rust programs, using cargo, and it went smoothly.

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Linux Fu: Fake Webcams Have Many Uses

May 28, 2026 by 14 Comments

Dealing with text streams is a fundamental skill for the Linux power user. You can sort, merge, and search text files easily from the command line. What if you could do the same thing with video? Well, you can. Maybe you want to add a logo to a webcam feed before sending it to a conference app. Maybe you want to blur, color-correct, or annotate video in real time. Or perhaps you want to inject prerecorded video into Zoom while pretending it is a live camera. Linux can do all of this, and the key ingredient is usually the same: a loopback video device.

The basic idea is simple. Instead of an application reading directly from /dev/video0, you create a fake camera device using the v4l2loopback kernel module. Your software pipeline writes processed video into the fake camera, and applications read from it as if it were a normal webcam. The result is surprisingly powerful.

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Linux Distributions And Who Is Responsible For The Software

May 27, 2026 by 58 Comments

The topic of downstream and upstream is an important one in the Linux ecosystem, where from one base distribution you can go many layers of distros deep before even looking at all the other base distributions. Within that veritable jungle you get questions about who is responsible for packaging software, where to report bugs found with a specific application, as well as what ‘LTS’ truly means in a consumer context. These and other points are raised in a recent video by [Brodie Robertson], with many examples of things going tragically wrong.

There’s a good argument to be made that ultimately it is the distro that is responsible for the software that they provide via their repositories. As [Brodie] shows in the video, there are a few cases where an ‘LTS’ distro uses an old version of some software that contains a bug that has been fixed a while ago, so reporting it to the developer is rather pointless, while the distro maintainers should fix it with backporting of patches or updating the version.

From an end user experience this also makes the most sense, as in the end they just want to have the Windows experience of downloading a proverbial installer, clicking through whatever dialogs pop and have working software. If the software is provided via the distro, it is their responsibility, the same way that you contact the developer if you get a DEB or RPM from a GitHub project page and it doesn’t work.

This current Linux Chaos Vortex can be called a major issue when e.g. FreeBSD has no such upstream/downstream issues, with cross-platform installers being basically impossible on Linux ever since the Linux Standard Base effort died.

Perhaps Linux will get a distroless future, however, which may finally herald that Year of the Linux Desktop.

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